KR930001178B1 - Plasma display device - Google Patents

Abstract

The display panel for improving cathode structure comprises front and rear plates (10,20), orthogonal cathodes (40) and anodes (30) and a cross-talk prevention unit (50). The cathodes comprises narrow metallic wires. The cross-talk prevention unit comprises a number of textile strips (51,52). The orthogonal lines (40) and strips (51,52) are woven to form a textile. The display panel has the cathode of metallic wires, thereby having electric anti-shock charactristic, and arranging the metallic wires in dense spaces to form the high density of pixels.

Description

Plasma display element

1 is a schematic perspective view of a conventional plasma display device.

2 is a partially broken perspective view of one embodiment of a plasma display device according to the present invention;

3 is a cross-sectional view of the plasma display device shown in FIG.

* Explanation of symbols for main parts of the drawings

10: front panel 20: back panel

30: positive electrode 40: negative electrode

50: Isolator (on fabric) 50 ': Bulkhead

51: first strip 52: second strip

60: buried layer 70: discharge space

70 ': non-discharge space

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display device, and more particularly to a plasma display device having an improved structure of a cathode.

In the general plasma display device, as shown in FIG. 1, the anode 30 and the cathode 40 are formed on each inner surface of the front plate 10 and the back plate 20 which are maintained at a predetermined interval by the partition wall 50 ′. It has a structure that is formed on the XY matrix. In this case, the anode 30 is generally made of a transparent ITO thin film, because it lies on the path of visible light generated between the cathode 40 and the anode 30.

Disadvantages of the conventional plasma display device are that the material of the cathode 40 has to be carefully selected as having an ion shock resistance, and the cumbersome and complicated defects of the film forming process and the defect rate of the resulting product are very high. will be. Moreover, in order to realize a high-definition image, the cathode should be arranged very densely, but there are certain limitations in narrowing it to the limitation of the film forming technology. In such a case, the line resistance of the cathode becomes very high, resulting in high power consumption, deterioration of image quality, and short-life.

An object of the present invention is to provide a plasma display device which is structurally very stable and has a low line resistance and a high intensity cathode. Another object of the present invention is to provide a plasma display device capable of realizing a high density image.

In order to achieve the above object, the present invention provides a plasma display device comprising two substrates and cross-talk preventing means (bumbar) for preventing cross-talk between a cathode, an anode, and pixels arranged in an XY matrix. It is made of a thin metal wire, and the crosstalk preventing means is characterized by forming a woven fabric such that the metal wire and the strip are orthogonal to each other by a plurality of fiber strips.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 2 shows a plasma display device of the present invention. The plasma display device has a structure in which the cathode 40 and the anode 30 are arranged in an X-Y matrix on each of the inner surfaces of the front plate 10 and the back plate 20 maintaining a constant interval. Between each anode A, partition walls 10 of a predetermined height are formed at regular intervals. At this time, the cathode 40 is made of a metal wire having a circular cross-section, the first strip 51 and the second strip 52 to form a cross-talk prevention insulator 50 for inter-pixel cross-fiber weave form Has Accordingly, the first strip 51 and the second strip 52 have a form in which the first strip 51 and the second strip 52 are alternately bypassed in a wave shape with respect to the cathode 40. At this time, adjacent edges of the first strip and the second strip are in contact with each other so that the discharge space of each pixel can be strictly distinguished. The bottom plate 20 is partially buried with the strips 51 and 52 having the buried layer 60 in contact therewith. The top portions of the strips 51 and 52 are in contact with the front plate 10 on which the anode 30 is formed.

According to the present invention, the fabric is pressed by the buried layer 60 of the back plate 20 in the state in which the cathode 40 made of metal wire and the strips 51 and 52 made of fiber are woven. It is possible to be fixed to the back plate, as shown in Figure 3 by the strips to form a discharge space 70 and a non-discharge space (70 ') of approximately triangular shape alternately. At this time, the discharge space is provided with a trio dot arrangement method by the strips woven in a planar view.

The plasma display device of the present invention having such a cathode has a stable structure as a whole. In particular, the cathode is made of a metal wire, unlike the prior art has a strong resistance to electrical shock, as well as can be arranged at very close intervals can form a high-density pixel. In particular, in the process, since the cathodes are already kept at a constant interval by the strips, there is no fear that a short circuit between the cathodes occurs due to an error in the manufacturing process. In particular, since the cathode has a large area of the volume cross section, the line resistance is very small. As a result, the variation in the discharge voltage of the entire screen is minimized, so that the local luminance difference on the screen is reduced. The plasma display device of the present invention having such a structure is preferably manufactured by the following method.

As the material of the negative electrode used in the present invention, any material having a low wire resistance and good ion impact resistance may be used, and a strip woven in a direction orthogonal thereto may use glass or carbon fiber. A kind of woven fabric is prepared from such a material, and then the dielectric material is thick-film printed on the inner surface of the back plate, and then the woven fabric is pressurized and fixed thereto. Subsequently, the semi-finished product of the plasma display device is completed by integrating the front plate having the anode formed thereon into one with the rear plate through a separate process. Then, a discharge gas or the like is charged into the plasma display device and then sealed to complete a complete product. As described above, the present invention is characterized in that the negative electrode is attached to the back plate and fixed to the back plate as a woven material, so that the entire negative electrode is formed at one time. Furthermore, the gaps between the cathodes can be formed at extremely narrow intervals, so that the intervals of about 55 µm or less can be obtained in some cases, which are extremely narrow compared to the conventional minimum width of 200 µm. In the plasma display device of the present invention, a metal such as stainless may be used as the material of the composite metal wire, and the type thereof may be changed by design criteria, and the cross-sectional shape thereof may also be modified.

As described above, the present invention is structurally stable, and manufacturing is very easy according to its characteristics. In particular, since the number of pixels per unit area has a value comparable to that of a conventional plasma display device, not only a large high definition image but also a small and extremely high definition image can be realized.

This invention is suitable as an image display device for high computer animation, and also as an image display device for HDTV which is in the development stage.

Claims (4)

A plasma display device having two substrates and cross-talk preventing means for preventing cross-talk between a cathode, an anode, and a pixel arranged in an XY matrix, wherein the cathode is made of a thin metal wire, and the cross-talk preventing means Plasma display device comprising a plurality of fiber strips to be woven so that the metal wire and the strip orthogonal to each other to form a woven material. The plasma display device of claim 1, wherein the strip is divided into a first strip and a second strip bypassing the cathode alternately, and the edges of adjacent strips are in contact with each other. The plasma display device according to any one of claims 1 to 3, wherein a buried layer is provided on an inner surface of the back plate so that a lower portion of the strip contacting the buried plate is buried. 4. The plasma display device of claim 3, wherein an upper portion of the strip is in contact with an inner surface of the front plate on which an anode is formed.